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Oxidation Behavior of Ti3SiC2-SiC Ceramic Composites Degui Zhu and Zhigang Wang Key Laboratory of Advanced Technologies of Materials, Ministry of Education, School of Materials Science & Engineering, Southwest Jiaotong University, Chengdu 610031, China dgzhu@home.swjtu.edu.cn Keywords: Ti3SiC2-SiC ceramics; oxidation resistance; hot isostatic pressing Abstract.
Full dense Ti3SiC2-SiC composite materials are successfully manufactured by in-situ synthesis under hot isostatic pressing in this study, in which, with raw materials of SiC-TiH2-C powders mixture.
When elongating the oxidation time, the rate of oxidation obviously decreases because of the high temperature autotherapy oxidation resistance of the composite materials.
Zhang: The Chinese Journal of Nonferrous Metals，2002, 12(4), p.629 [6] M W Barsoum, T.
Ai: Journal of Ceramics, 2000, 21(4), p.190 [9]C.

The materials tested reflected the types of subbases used in those times for supporting concrete pavements.
These materials included loam, clay, old macadam, gravel, and sand.
For the most part, loose materials were used as compared to the bound materials used in today's subbases.
It was obvious that less force was required to move the test slabs for equivalent subbase materials.
All materials gave curves showing hysteresis during cyclical movements.

Introduction Beards [1] has performed a series of experiments on the damping of the joints to control the vibration of a structure and established that the damping in joints is much larger compared to the material.
Oyediran: Dynamic Analysis of Slip Damping in Clamped Layered Beams with Non-Uniform Pressure Distribution at the Interface, Journal of Sound and Vibration, Vol. 309 (2008), p. 349-374
Deng: Structural Damping Caused by Micro-Slip along Frictional Interfaces, International Journal of Mechanical Science, Vol. 47 (2005), p. 1191-1211
Vakakis: Experimental Study on Non-Linear Effects in a Typical Shear Lap Joint Configuration, Journal of Sound and Vibration, Vol. 277 (2004), p. 327-351

With the current tool to draw electrical equipment, you can quickly get statistical information on all devices (Fig. 3): including the number of devices, size, room equipment information, certain floors of the device information, it is convenient for user to quickly understand the final arrangement and construction unit ready to purchase material.
Journal of Jiangnan University(Natural Science Edition), 2013, 12(3)：p.283-287(in Chinese) [2] Chen Li, Shao Zengzhen.
Chinese Journal of Mechanical Engineering：English Edition, 2005, l8(1)：p.132-138 [6] Demian P, Fruchter R.
Journal of Computing in Civil Engineering, 2005, 19(2)：p.119-136

Hong Kong Science Park, Hong Kong * Corresponding author: melhxie@scut.edu.cn Keywords: UV-LIGA, electroforming.
However, by adding other materials, e.g. phosphor-Nickel (Ni-P), these alloys have their attractions, being stainless, non-magnetic and very high hardness.
When the phosphorous content reaches over 12 wt%, the Ni-P alloy is with non-magnetic properties while pure nickel is ferromagnetic material.
“Microfabrication: LIGA-X and applications”, Applied Surface Science, 164, pp.97-110, 2000
“Recent developments in the electrodeposition of nickel and some nickel-based alloys”, Journal of Applied Electrochemistry 36, pp.957–972, 2006

Methodology Materials.
It indicates that, the compressibility of untreated peat was very low, and it may caused by the organic materials and fibre content in the naturally untreated sample.
Hui, Melamine-modified urea formaldehyde resin for bonding particleboards, Forest Products Journal 58(4) (2008) 56-61
Farrell, Some experiences on the stabilization of Irish peats, Canadian Geotechnical Journal 40(1) (2003) 107-120
Ling, Characteristics and correlation of the index properties peat soil: Parit Nipah, Journal of Applied Science and Agriculture 10(5) (2015) 19–23.

The artificial hot spring system and its application Bai Zhiyong Central South University of Forestry Science-Technology, Changsha 410004 ,Hunan, China dr_baizy@126.com Key word：Hot spring, artificial hot spring system, application Abstract：The artificial hot spring system ,based on comprehensively inspecting and study the domestic and foreigneach all kinds of the natural hot spring geological structure,material and the trace element ingredient content, can completely simulates the formation environments and the conditions of natural hot spring, use the connected ore as the matrix, it is constitution of the response installment, the heat installation of the electricity or the fuel gas or the fuel oil or burns coal, the circulation disinfection installment, control device and so on, it may according to needs to make each kind of hot spring water; This system provide the technical guarantee for improvement of matter and the trace element ingredient of some local natural hot spring,
The artificial hot spring system technological process and system structure Artificial hot spring system technological process is: taking clean surface water or ground water through the pump into the ore reaction system, after heating, into the bath system, in order to maintain the bathing system water cleaning, bathing system water regularly or from time to time to enter into circulation disinfection system to disinfecting, after disinfection the water entry into the ore reaction system heating, so that the hot water maintained temperature and Mineral chemical composition at the levels of science.
Filtering and disinfecting pool generally located in the ground, made of metal or non-metal material.
Chongqing University Press, 1988 [3] Tao Yong, geothermal water exploitation on environment and health effects [J ], China Environmental Science, 1994, 14 ( 1): 38-38 [4] Zhou xun, Zhou Haiyan, Thermal groundwater resources under the condition of evolution [J ], geological Bulletin of China, 2006, ( 04) : 482-486 [5] Luo Gaoyuan, Lu Lin.
Special zone economy, 2008, (03 ).；162-165 [6] Huang Xiaowei, hot bath water bacterial pollution status and control [ J], Journal of environment and health, 2003 (03 ): 186 [7] Bai Zhiyong, The artificial hot spring system [P], national patent, 201020616821.5

Finally, it must be noted that with the application of an advanced control solution, as proposed in this study, it becomes viable, in a second moment, for the ethanol plants to operate in multiple operational conditions, such as: 1) maximum energy economy (scarcity of raw material, for example) and: 2) maximum production condition (for situations with excess of materials to be distilled).
Lawrynczuk, A family of model predictive control algorithms with artificial neural networks, International Journal of Applied Mathematics and Computer Science, 17 (2007) 217-232
Nagy, Model based control of a yeast fermentation bioreactor using optimally designed artificial neural networks, Chemical Engineering Journal, 127 (2007) 95-109
Daosud, Neural network based model predictive control for a steel pickling process, Journal of Process Control, 19 (2009) 579-590

For instance, as an important raw material it can be used both in food processing and light industry processing.
Materials and methods 1.1 Materials and equipment Potatoes" Netherlands 15": Produced in Zhangjiakou, Hebei, China; Drying and Air Circulation Oven DHG-9145A: Shanghai a constant technology co., LTD; Mill: Perten company; SC - 80c color difference meter, Beijing Kangguang instrument company. 1.2 Effects of different conditions of color-protecting on the potato powder 1.2.1 Selecting the condition of color-protecting Cleaned and peeled potatoes were cut into 0.5 cm thickness slices for color protecting procedure.
Journal of Shanghai Agricultural College.
Food Science,.Forum Vol.26-9,(2005), p. 92-95 [5] GuanWeiju, Wang Haiqing, Zheng Jiafeng, et al.
Food Industry Science and Technology.

Materials Science and Engineering,1996,A213:103~114
Materials Science and Engineering,2002,A323,192~197
[3] X.Wang et al.Substructure of High Temperature Compressed Titanium Alloy IMI834.Materials Science and Engineering:A,434(2006):188-193
Materials Science and Engineering:A, 2012,538:156-163
Materials Science and Engineering:A, 2011, 530:511-518